Validation Reports

Dr. Joseph Renick, former Chief Scientist at Applied Research Associates analyzed the characteristics of Brilliant Light Power’s energetic hydrino reaction. Based on the shockwave propagation velocity and the corresponding over pressure, the high-current ignition of water in a silver matrix was measured to produce a shock wave that was 10 times greater than an equivalent weight of TNT. [PDF]

During April-May 2016, five independent third-party validations of Brilliant Light Power’s SunCell Technology were carried out at BrLP’s facilities in Cranbury, NJ. In each case, a scientist from academia or industry supervised and directed experiments and measurements, with BrLP staff acting in a support role to facilitate the work of the validator. Experimental set-ups were built from components, and instruments were calibrated in accordance with manufacturer’s specifications under the supervision of the validators. Four validation methods were employed to substantiate the SunCell® reaction power levels. These test results all demonstrate up to megawatt net power when compared to reference reactions. The highlights of the four techniques are:

Absolute Total Optical Power of Ignited Hydrated Silver Shots Recorded over the Spectral Range from Extreme Ultraviolet to Infrared Wavelengths: 514 kW of optical power was produced by a tiny hydrated silver shot due to the hydrino reaction. This result was extraordinary considering the peak power was 1.3 MW coming from a fuel shot having a volume of 10 millionths of a liter triggered by the ignition power of 25 kW, less than 2% of the peak power generated. It was further remarkable that the radiation was essentially all short wavelength (high energy) in the EUV and UV range with essentially no visible or near infrared light.

Absolute Ultraviolet Power Spectrum of Ignited Hydrated Oxide-Doped Silver Shots: Ignited partially hydrated oxide-doped shots showed optical power in the ultraviolet of up to 689,000 W that exceeded the ignition input power of 25 kW by a factor of 28 even considering that the UV light power represents only about 25% of the total optical power extending to 10 nm.

Calorimetry of Solid Fuel: This thermal power and energy test verified the measured optical powers and energies of single solid fuel shots. The total thermal power levels of over 300 kW were limited by the size of the test cell. A subsequent test with a 2 times larger test cell produced 440 kW. The tests were carried out in a commercial water bath calorimeter using 80 mg, 2mm diameter silver shots with a small amount of partially hydrated oxide doping run under an 95% argon and 5% hydrogen atmosphere. The shots were ignited in the water-submerged cell. The energy was determined by the temperature rise of the known amount of water in the bath, and the average power was determined from the energy released and the event duration.

Thermal Burst Power Measurement in Continuous Generator: The tests confirmed the feasibility of 1.5 MW continuous power generation with a total 8.6 kW input power to the ignition electrodes, electromagnetic pump, and inductively coupled heater used for startup and power calibration. Megawatt scale plasma power was generated when a small amount (0.5 wt%) of very stable oxide injected with a highly conductive, inert, molten silver matrix was allowed to react with an atmosphere of 3% hydrogen and 97% argon to form the hydrino reaction catalyst and atomic hydrogen in an ignited arc plasma. The insignificant input power was maintained constant, and output power increase with the addition of oxide to initiate the hydrino reaction was measured by the dramatic relative increase in the thermal response of a water coolant loop, heat exchanger about the cell body and components. The immense hydrino reaction power melted the 3.7 mm thick high-temperature stainless steel vessel walls and 6.6 mm thick tungsten electrodes in seconds. Commercial systems will incorporate high temperature refractory materials and control the reaction power to run for a projected two decades. The results demonstrate the feasibility of power densities in excess of those required to enable any planned SunCell power generator.

Brilliant Light Power’s game-changing energy device that has water (H2O) as its only fuel input from which it produces 100 billion watts per liter of energetic plasma by forming a more stable state of the hydrogen atom has been validated by academic experts. The findings from three programs are presented in validation reports of our plasma-producing SunCell. The validators confirmed the SunCell performance and commercial opportunity wherein only H2O is consumed to form hydrinos and O2. An astonishingly high power density is produced at the level of millions of watts. The hydrino transition mechanism was confirmed by EUV spectroscopy [HOH EUV paper]. Attached are summary biographies for the validators and reports from:

A California Institute of Technology professor that advises brand name institutional investment firms on technology and business opportunities.

In recent work at Brilliant Light Power, the application of the catalyst that enables the SunCell has given rise to a breakthrough in the development of solid fuels such as FeOOH and a mixture of Cu(OH)2 + FeBr2. Military applications such as energetic materials and thermal sources for the Department of Defense are being developed. The high energy gains and power density observed on solid fuels reactions have been confirmed. Independent off-site tests at several academic and industry laboratories using commercial instruments have confirmed that these new solid fuels release multiples of the maximum theoretical energy possible. Hydrinos were observed to have formed as a result of the heat release. Data recorded on commercial calorimeters at the commercial laboratories of Setaram and Pekin Elmer is presented in our paper. Independent studies include the following:

Brilliant Light Power’s electrochemical energy device that has water (H2O) as its only fuel input from which it produces electricity by forming a more stable state of the hydrogen atom has been validated by academic and industry experts. The findings from six programs are presented in validation reports of our CIHT electricity-producing cell. The validators confirmed the CIHT performance and commercial opportunity wherein only H2O is consumed to form hydrinos and 02 as electric power is produced continuously for the 30-day or longer duration of the studies. Validators also confirmed the theory and hydrino identification. Attached are summary biographies for the validators and reports from:

A California Institute of Technology professor that advises brand name institutional investment firms on technology and business opportunities.